Difference between revisions of "2009 Winter Project Week LungImagingPlatform"

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<h1>Objective</h1>
 
<h1>Objective</h1>
Our goal is to develop a lung imaging platform for the clinical understanding of multiple lung diseases like, Chronic Obstructive Pulmonary Disease (COPD), Asthma, Interstitial Lung Disease (ILD) among others. Quantitative lung imaging is a key component of on-going genetic and molecular biology studies that are being carried out at BWH and other centers across USA. A significant example of these new efforts is [[http://www.copdgene.org/|COPD Genetics Epidemiology]] multicenter study. The NAMIC Kit and Slicer 3 are ideal candidates for the implementation of such a effort.
+
Our goal is to develop a lung imaging platform for the clinical understanding of multiple lung diseases such as Chronic Obstructive Pulmonary Disease (COPD), Asthma, and Interstitial Lung Disease (ILD) among others. Quantitative lung imaging is a key component of on-going genetic and molecular biology studies that are being carried out at BWH and other centers across USA. A significant example of these new efforts is [[http://www.copdgene.org/|COPD Genetics Epidemiology]] multicenter study. The NAMIC Kit and Slicer 3 are ideal candidates for the implementation of such efforts.
  
 
Our goals for this week are threefold:
 
Our goals for this week are threefold:
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<h1>Approach, Plan</h1>
 
<h1>Approach, Plan</h1>
Our approach is to develop a module in Slicer 3 that have the following components:
+
Our approach is to develop a module in Slicer 3 that has the following components:
* A unique library that can be link against and shared by other Slicer module or external applications.
+
* A unique library that can be linked against and shared by other Slicer modules or external applications.
* Command Line Modules that encapsulate the individual algorithm components of the platform without string attaches to a particular solution. The idea is to enable rapid prototyping and deployment of the solutions before they are fully integrated.
+
* Command Line Modules that encapsulate the individual algorithmic components of the platform without strings attached to a particular solution. The idea is to enable rapid prototyping and deployment of the solutions before they are fully integrated.
 
* Custom solutions for disease-oriented applications: our plan is to discuss how an explication can customize the Slicer 3 layout.
 
* Custom solutions for disease-oriented applications: our plan is to discuss how an explication can customize the Slicer 3 layout.
  

Revision as of 03:20, 3 January 2009

Home < 2009 Winter Project Week LungImagingPlatform
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Key Investigators

  • James Ross
  • Raul San Jose


Objective

Our goal is to develop a lung imaging platform for the clinical understanding of multiple lung diseases such as Chronic Obstructive Pulmonary Disease (COPD), Asthma, and Interstitial Lung Disease (ILD) among others. Quantitative lung imaging is a key component of on-going genetic and molecular biology studies that are being carried out at BWH and other centers across USA. A significant example of these new efforts is [Genetics Epidemiology] multicenter study. The NAMIC Kit and Slicer 3 are ideal candidates for the implementation of such efforts.

Our goals for this week are threefold:

  • Design the main platform components.
  • Dynamic programming approaches for the extraction of 3D airways.
  • Porting our current imaging platform, [Airway Inspector] based on 3D Slicer to Slicer 3.

Approach, Plan

Our approach is to develop a module in Slicer 3 that has the following components:

  • A unique library that can be linked against and shared by other Slicer modules or external applications.
  • Command Line Modules that encapsulate the individual algorithmic components of the platform without strings attached to a particular solution. The idea is to enable rapid prototyping and deployment of the solutions before they are fully integrated.
  • Custom solutions for disease-oriented applications: our plan is to discuss how an explication can customize the Slicer 3 layout.

We will focus on the following design aspects:

  • MRML data structures for tubular-type anatomical structures.
  • Support for quantitative imaging: handling data tables in Slicer 3 from MRML to Command Line Modules.
  • ITK filter hierarchies for the main image analysis components: extraction of lung lobes, airways and vessels.
  • Customizable GUI layout.

Progress

  • A semiautomatic lobe segmentation has been successfully implemented in Slicer 3 as a Command Line Module.
  • Initial design needs have been discussed.



References